article on use plate tectonic theory to explain the origin of mount st. helens (and by extension, the cascades and all andean-type mountains) Paper must be at least 500 words. Please, no plagiarized work! How Tectonic Plate Theory explains the Origin of Mount St. Helens Tectonic plate is an actively collapsing spot where the fragments of the lithosphere push towards each other and crash. This is because of the intense pressure that facilitates the melting of plate substances in the mantle. Mt. St. Helens in the California is a notable example of the collision of plate tectonics to form it (Foxworthy and Hill 27). This occurred due to the volcanoes in the West Coast Cascade Range that produced the earth’s convergent plates to crash gradually over the years. This implies that the creation of Mt. St. Helens occurred in the subduction zone where plates collide beneath another. Juan de Fuca is one of the plates that slide under the continental North American plate causing the convergence.
The Cascades and Andean-type mountains
Volcanic eruptions near the oceanic lithosphere contributed to the formation of the Cascades and Andean-type mountains. This was because of the subduction of the landscape along the mountains that led to the invasion of magma from the layer and some due to crustal reduction. It is apparent that at the boundaries of the ranges are sedimentary rocks that slant, forming hogbacks. When the molten rocks and solids present under the earth mix together, then they form the magma. This substance is capable of triggering intrusion into the adjacent rocks that form the sills. The magma rocks are formed when explosive gases and hot underground water melt the glacial ice near the mantles (Price 24).
The magma at Mt. St. Helens contains glacial rocks, ash and sedimentary rocks that melt during eruptions to form the mountain. This happens when the pressure pushed up the weaker sedimentary rocks that mix with the ash along the mantes (Foxworthy and Hill 23). The eruption can take long hours in the atmosphere before reaching the surface and this is harmful to the people in the vicinity. The magma erupted through the explosives are highly viscous and resistant to flow, which make the steep volcanoes. As a result, the chemical investigation of the eruptive materials from various phases of Mount St. Helens volcanism indicates that the magmatic structure interacts with different chemicals such as silicic and other compounds (Anderson 50).
The Andean-type mountains
The Andean-type mountains extend from the Columbian to the Chilean regions. They were shaped through the subduction of the Nazca plates that collided with the Antarctic plates to cause an eruption. In this regard, the other geologic features associated with the Andean-Type mountains entail faults, folds and igneous rocks (Price 24). These features are remnants of active eruptions and they exist due to the spills that emerge from the volcanic activities. The connection among the features is that they their formation is normally under varied conditions of stress, pressure and extreme temperature. The presence of the weak sediments triggers the breakages to form the faults and folds near the lavas. This implies that the impact of volcanic activities results in the breaking of cracks and cone-like structures that form near the mountains. The Andean-type mountains are synonymous with the existence of the faults and igneous rocks that occur during the exertion of pressure and volcanism (Price 24).
Anderson, David A. Mount St. Helens. New York: Routledge, 1990.
Foxworthy, B. L. and Mary Hill. Volcanic Eruptions of 1980 at Mount St. Helens: The First 100
Days. Washington: U.S. G.P.O., 1998. Print.
Price, Martin F, Alton C. Byers, Donald A. Friend, Thomas Kohler, and Larry W. Price.
Mountain Geography: Physical and Human Dimensions. , 2013. Internet resource.